Drought Drives Extracellular Polymeric Substances Accumulation and Functional Shifts in Streambed Biofilm Communities
Anna M. Romaní, Núria Perujo, Marta Pujol, Giulia Gionchetta

TL;DR
Streambed biofilms adapt to drought by producing more EPS and shifting their metabolic functions, showing resilience to dry conditions.
Contribution
This study empirically demonstrates EPS-mediated drought adaptation and increased functional diversity in natural stream biofilms.
Findings
EPS production increases significantly in intermittent streams under long-term drought.
Functional diversity and metabolic range increase in drier conditions, challenging previous assumptions.
Intermittent streams show enhanced capacity to utilize phenolic compounds, indicating adaptation to terrestrial organic matter.
Abstract
This study investigates the adaptive response of streambed microbial biofilms to water scarcity, focusing on the role of extracellular polymeric substances (EPS) production across a gradient of hydrological conditions. Sediment samples from 37 streams in the north-eastern Iberian Peninsula, encompassing both permanent and intermittent flow regimes, were analysed for EPS-polysaccharide content, microbial biomass, chlorophyll-a, and biofilm function (carbon substrate utilization profiles). Drought conditions were characterized based on the number of dry days over the eight months preceding sampling. Results revealed that EPS production increased significantly in intermittent streams, particularly under long-term drought, reaffirming that EPS synthesis is a key microbial strategy to mitigate desiccation stress. Notably, when normalized to prokaryotic density, EPS content exhibited a…
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Taxonomy
TopicsMicrobial Community Ecology and Physiology · Freshwater macroinvertebrate diversity and ecology · Soil and Water Nutrient Dynamics
